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#' @title
#' Passing Arguments to Functions in \pkg{stringi}
#'
#' @description
#' Below we explain how \pkg{stringi} deals (in almost all the possible cases)
#' with its functions' arguments.
#'
#' @section Coercion of Arguments:
#'
#' When a character vector argument is expected, factors and other vectors
#' coercible to characters vectors
#' are silently converted with \code{\link{as.character}},
#' otherwise an error is generated.
#'
#' When a logical, numeric or integer vector argument is expected,
#' factors are converted with \code{as.*(\link{as.character}(...))},
#' and other coercible vectors are converted with \code{as.*},
#' otherwise an error is generated.
#'
#'
#' @section Vectorization:
#'
#' Almost all functions are vectorized with respect to all their arguments;
#' This may sometimes lead to strange results - we assume you know what
#' you are doing. However, due to this property you may,
#' e.g., search for one pattern in each given string,
#' or search for each pattern in one given string.
#'
#' We of course took great care of performance issues:
#' e.g., in regular expression searching, regex matchers are reused
#' from iteration to iteration, as long it is possible.
#'
#' Functions with some non-vectorized arguments are rare:
#' e.g., regular expression matcher's settings are established
#' once per each call.
#'
#' Some functions
#' assume that a vector with one element is given
#' as an argument (like \code{collapse} in \code{\link{stri_join}}).
#' In such cases, if an empty vector is given you will get an error
#' and for vectors with more than 1 elements - a warning will be
#' generated (only the first element will be used).
#'
#' You may find details on vectorization behavior in the man pages
#' on each particular function of your interest.
#'
#' @section Handling Missing Values (\code{NA}s):
#'
#' \pkg{stringi} handles missing values consistently.
#' For any vectorized operation, if at least one vector element is missing,
#' then the corresponding resulting value is also set to \code{NA}.
#'
#' @section Preserving Input Objects' Attributes:
#'
#' Generally, all our functions drop input objects' attributes
#' (e.g., \code{\link{names}}, \code{\link{dim}}, etc.).
#' This is generally because of advanced vectorization and for efficiency reasons.
#' Thus, if arguments' preserving is needed,
#' please remember to copy important attributes manually
#' or use, e.g., the subsetting operation like \code{x[] <- stri_...(x, ...)}.
#'
#' @name stringi-arguments
#' @family stringi_general_topics
#' @family prepare_arg
invisible(NULL)


# @title
# Prepare a String Vector Argument [internal]
#
# @description
# This is an internal function. However, the interested user may play with it
# in order to get more insight on how \pkg{stringi} deals with its
# functions' arguments. See `Value' section for details.
#
# @param x argument to be checked
#
# @return
# If \code{x} is a factor or an object equipped with a \code{class}
# attribute or a list, then \code{\link{as.character}} is called.
# If \code{x} is a string, it is returned with no change.
# If an atomic vector or a matrix is given, it is coerced to a character vector.
# If it is a \code{name} object, a character vector of length 1 is generated.
# Otherwise the function throws an error.
#
# @family prepare_arg
stri_prepare_arg_string <- function(x) {
   .Call(C_stri_prepare_arg_string, x, NULL)
}


# @title
# Prepare a Numeric Vector Argument [internal]
#
# @description
# This is an internal function. However, the interested user may play with it
# in order to get more insight on how \pkg{stringi} deals with its
# functions' arguments. See `Value' section for details.
#
# @param x argument to be checked
#
# @return
# If \code{x} is a factor, \code{\link{as.character}} is called, and the
# resulting character vector is coerced to numeric.
# If it is an object equipped with a \code{class} attribute or a list,
# \code{as.double} is called.
# If it is a numeric vector, then it is returned with no change.
# If atomic vector or a matrix is given, it is coerced to a numeric vector.
# Otherwise the function throws an error.
#
# @family prepare_arg
stri_prepare_arg_double <- function(x) {
   .Call(C_stri_prepare_arg_double, x, NULL)
}


# @title
# Prepare an Integer Vector Argument [internal]
#
# @description
# This is an internal function. However, the interested user may play with it
# in order to get more insight on how \pkg{stringi} deals with its
# functions' arguments. See `Value' section for details.
#
# @param x argument to be checked
#
# @return
# If \code{x} is a factor, \code{\link{as.character}} is called, and the
# resulting character vector is coerced to integer.
# If it is an object equipped with a \code{class} attribute or a list,
# \code{as.integer} is called.
# If it is an integer vector, then it is returned with no change.
# If an atomic vector or a matrix is given, it is coerced to an integer vector.
# Otherwise the function throws an error.
#
# @family prepare_arg
stri_prepare_arg_integer <- function(x) {
   .Call(C_stri_prepare_arg_integer, x, NULL)
}


# @title
# Prepare a Logical Vector Argument [internal]
#
# @description
# This is an internal function. However, the interested user may play with it
# in order to get more insight on how \pkg{stringi} deals with its
# functions' arguments. See `Value' section for details.
#
# @param x argument to be checked
#
# @return
# If \code{x} is a logical vector, it is returned with no change.
# If it is an object equipped with a \code{class} attribute or a list,
# \code{as.logical} is called.
# If \code{x} is a factor, \code{\link{as.character}} is called, and the
# resulting character vector is coerced to logical.
# If atomic vector or a matrix is given, it is coerced to a logical vector.
# Otherwise the function throws an error.
#
# @family prepare_arg
stri_prepare_arg_logical <- function(x) {
   .Call(C_stri_prepare_arg_logical, x, NULL)
}


# @title
# Prepare a Raw Vector Argument [internal]
#
# @description
# This is an internal function. However, the interested user may play with it
# in order to get more insight on how \pkg{stringi} deals with its
# functions' arguments. See `Value' section for details.
#
# @param x argument to be checked
#
# @return
# If \code{x} is a factor, \code{\link{as.character}} is called, and the
# resulting character vector is coerced to raw.
# If it is an object equipped with a \code{class} attribute or a list,
# \code{as.raw} is called.
# If \code{x} is a raw vector, it is returned with no change.
# If atomic vector or a matrix is given, it is coerced to a raw vector.
# Otherwise the function throws an error.
#
# @family prepare_arg
stri_prepare_arg_raw <- function(x) {
   .Call(C_stri_prepare_arg_raw, x, NULL)
}


# @title
# Prepare a String Vector Argument [Single Value]  [internal]
#
# @description
# This is an internal function. However, the interested user may play with it
# in order to get more insight on how \pkg{stringi} deals with its
# functions' arguments. See `Value' section for details.
#
# @param x argument to be checked
# @return
# In the first place, \code{\link{stri_prepare_arg_string}} is called.
# On an empty vector, an error is generated.
# If there are more than 1 elements, a warning is generated.
# A vector with one element (the first in \code{x}) is returned.
#
# @family prepare_arg
stri_prepare_arg_string_1 <- function(x) {
   .Call(C_stri_prepare_arg_string_1, x, NULL)
}


# @title
# Prepare a Numeric Vector Argument [Single Value]  [internal]
#
# @description
# This is an internal function. However, the interested user may play with it
# in order to get more insight on how \pkg{stringi} deals with its
# functions' arguments. See `Value' section for details.
#
# @param x argument to be checked
# @return
# In the first place, \code{\link{stri_prepare_arg_double}} is called.
# On an empty vector, an error is generated.
# If there are more than 1 elements, a warning is generated.
# A vector with one element (the first in \code{x}) is returned.
#
# @family prepare_arg
stri_prepare_arg_double_1 <- function(x) {
   .Call(C_stri_prepare_arg_double_1, x, NULL)
}


# @title
# Prepare an Integer Vector Argument [Single Value]  [internal]
#
# @description
# This is an internal function. However, the interested user may play with it
# in order to get more insight on how \pkg{stringi} deals with its
# functions' arguments. See `Value' section for details.
#
# @param x argument to be checked
# @return
# In the first place, \code{\link{stri_prepare_arg_integer}} is called.
# On ab empty vector, an error is generated.
# If there are more than 1 elements, a warning is generated.
# A vector with one element (the first in \code{x}) is returned.
#
# @family prepare_arg
stri_prepare_arg_integer_1 <- function(x) {
   .Call(C_stri_prepare_arg_integer_1, x, NULL)
}


# @title
# Prepare a Logical Vector Argument [Single Value]  [internal]
#
# @description
# This is an internal function. However, the interested user may play with it
# in order to get more insight on how \pkg{stringi} deals with its
# functions' arguments. See `Value' section for details.
#
# @param x argument to be checked
# @return
# In the first place, \code{\link{stri_prepare_arg_logical}} is called.
# On an empty vector, an error is generated.
# If there are more than 1 elements, a warning is generated.
# A vector with one element (the first in \code{x}) is returned.
#
# @family prepare_arg
stri_prepare_arg_logical_1 <- function(x) {
   .Call(C_stri_prepare_arg_logical_1, x, NULL)
}
